The Use of Sodium Hypochlorite Solution for (n,γ)99Mo/99mTc Generator Based on Zirconium-Based Material (ZBM)

The Use of Sodium Hypochlorite Solution for (n,γ)99Mo/99mTc Generator Based on Zirconium-Based Material (ZBM)

The many problems in preparing fission product 99Mo led into this work to develop 99Mo/99mTc generator using neutron-irradiated natural MoO3 targets and, more specifically, to develop a zirconium-based material (ZBM) for chromatography columns that have an adsorption capacity of more than 100 mg Mo/...

Full description

Bibliographic Details
Main Authors: I. Saptiama, Marlina, E. Sarmini, Herlina, Sriyono, Abidin, H. Setiawan, Kadarisman, H. Lubis, A. Mutalib
Format: Article
Language:English
Published: Center for Development of Nuclear Informatics, National Nuclear Energy Agency (BATAN) 2015-08-01
Series:Atom Indonesia
Subjects:
99Mo/99mTc generator
Zirconium material
Adsorption capacity
Sodium hypochlorite
Yield of 99mTc
Online Access:http://aij.batan.go.id/index.php/aij/article/view/384
_version_ 1818304136119058432
author I. Saptiama
Marlina
E. Sarmini
Herlina
Sriyono
Abidin
H. Setiawan
Kadarisman
H. Lubis
A. Mutalib
author_facet I. Saptiama
Marlina
E. Sarmini
Herlina
Sriyono
Abidin
H. Setiawan
Kadarisman
H. Lubis
A. Mutalib
author_sort I. Saptiama
collection DOAJ
description The many problems in preparing fission product 99Mo led into this work to develop 99Mo/99mTc generator using neutron-irradiated natural MoO3 targets and, more specifically, to develop a zirconium-based material (ZBM) for chromatography columns that have an adsorption capacity of more than 100 mg Mo/g ZBM. This paper reports our recent experiments in the use of sodium hypochlorite solution of various concentrations to improve the yield of 99mTc in performance of (n,γ)99Mo/99mTc generators based on the ZBM. The synthesized ZBM was coated with tetraethyl orthosilicate for improving the hardness of the material. The adsorption of [99Mo]molybdate into ZBM was carried out by reacting ZBM into [99Mo]molybdate solution at 90°C to form ZBM-[99Mo] molybdate. ZBM-[99Mo]molybdate was then packed into generator column, then eluted with 10 × 1 mL of saline followed by 1 × 5 mL of NaOCl solution. The NaOCl solution concentrations used were 0.5%; 1%; 3%; and 5% for each column, respectively. This study resulted in a ZBM which has a 99Mo adsorption capacity of 167.5 ± 3.4 mgMo/g ZBM, as well as in a yield eluate of 99mTc of up to 70%, and the find that the optimum NaOCl concentration was 3%. The use of sodium hypochlorite solution affected 99Mo breakthrough. The higher sodium hypochlorite concentration used, the more 99Mo breaktrough exist on 99mTc eluate.
first_indexed 2024-12-13T06:05:54Z
format Article
id doaj.art-971e586bb0b84a14867f9d18e6ee3640
institution Directory Open Access Journal
issn 0126-1568
language English
last_indexed 2024-12-13T06:05:54Z
publishDate 2015-08-01
publisher Center for Development of Nuclear Informatics, National Nuclear Energy Agency (BATAN)
record_format Article
series Atom Indonesia
spelling doaj.art-971e586bb0b84a14867f9d18e6ee36402022-12-21T23:57:14ZengCenter for Development of Nuclear Informatics, National Nuclear Energy Agency (BATAN)Atom Indonesia0126-15682015-08-01412103109The Use of Sodium Hypochlorite Solution for (n,γ)99Mo/99mTc Generator Based on Zirconium-Based Material (ZBM)I. Saptiama 0Marlina 1E. Sarmini 2Herlina 3Sriyono 4Abidin 5H. Setiawan 6Kadarisman 7H. Lubis 8A. Mutalib 9Center for Radioisotope and Radiopharmaceutical Technology, National Nuclear Energy Agency Puspiptek Area Serpong, Tangerang 15314, IndonesiaCenter for Radioisotope and Radiopharmaceutical Technology, National Nuclear Energy Agency Puspiptek Area Serpong, Tangerang 15314, IndonesiaCenter for Radioisotope and Radiopharmaceutical Technology, National Nuclear Energy Agency Puspiptek Area Serpong, Tangerang 15314, IndonesiaCenter for Radioisotope and Radiopharmaceutical Technology, National Nuclear Energy Agency Puspiptek Area Serpong, Tangerang 15314, IndonesiaCenter for Radioisotope and Radiopharmaceutical Technology, National Nuclear Energy Agency Puspiptek Area Serpong, Tangerang 15314, IndonesiaCenter for Radioisotope and Radiopharmaceutical Technology, National Nuclear Energy Agency Puspiptek Area Serpong, Tangerang 15314, IndonesiaCenter for Radioisotope and Radiopharmaceutical Technology, National Nuclear Energy Agency Puspiptek Area Serpong, Tangerang 15314, IndonesiaCenter for Radioisotope and Radiopharmaceutical Technology, National Nuclear Energy Agency Puspiptek Area Serpong, Tangerang 15314, IndonesiaCenter for Radioisotope and Radiopharmaceutical Technology, National Nuclear Energy Agency Puspiptek Area Serpong, Tangerang 15314, IndonesiaDepartment of Chemistry, Faculty of Mathematics and Natural Science, Padjadjaran University Jl. Raya Bandung-Sumedang Km.21 Jatinangor, Sumedang 45363, IndonesiaThe many problems in preparing fission product 99Mo led into this work to develop 99Mo/99mTc generator using neutron-irradiated natural MoO3 targets and, more specifically, to develop a zirconium-based material (ZBM) for chromatography columns that have an adsorption capacity of more than 100 mg Mo/g ZBM. This paper reports our recent experiments in the use of sodium hypochlorite solution of various concentrations to improve the yield of 99mTc in performance of (n,γ)99Mo/99mTc generators based on the ZBM. The synthesized ZBM was coated with tetraethyl orthosilicate for improving the hardness of the material. The adsorption of [99Mo]molybdate into ZBM was carried out by reacting ZBM into [99Mo]molybdate solution at 90°C to form ZBM-[99Mo] molybdate. ZBM-[99Mo]molybdate was then packed into generator column, then eluted with 10 × 1 mL of saline followed by 1 × 5 mL of NaOCl solution. The NaOCl solution concentrations used were 0.5%; 1%; 3%; and 5% for each column, respectively. This study resulted in a ZBM which has a 99Mo adsorption capacity of 167.5 ± 3.4 mgMo/g ZBM, as well as in a yield eluate of 99mTc of up to 70%, and the find that the optimum NaOCl concentration was 3%. The use of sodium hypochlorite solution affected 99Mo breakthrough. The higher sodium hypochlorite concentration used, the more 99Mo breaktrough exist on 99mTc eluate.http://aij.batan.go.id/index.php/aij/article/view/38499Mo/99mTc generatorZirconium materialAdsorption capacitySodium hypochloriteYield of 99mTc
spellingShingle I. Saptiama
Marlina
E. Sarmini
Herlina
Sriyono
Abidin
H. Setiawan
Kadarisman
H. Lubis
A. Mutalib
The Use of Sodium Hypochlorite Solution for (n,γ)99Mo/99mTc Generator Based on Zirconium-Based Material (ZBM)
Atom Indonesia
99Mo/99mTc generator
Zirconium material
Adsorption capacity
Sodium hypochlorite
Yield of 99mTc
title The Use of Sodium Hypochlorite Solution for (n,γ)99Mo/99mTc Generator Based on Zirconium-Based Material (ZBM)
title_full The Use of Sodium Hypochlorite Solution for (n,γ)99Mo/99mTc Generator Based on Zirconium-Based Material (ZBM)
title_fullStr The Use of Sodium Hypochlorite Solution for (n,γ)99Mo/99mTc Generator Based on Zirconium-Based Material (ZBM)
title_full_unstemmed The Use of Sodium Hypochlorite Solution for (n,γ)99Mo/99mTc Generator Based on Zirconium-Based Material (ZBM)
title_short The Use of Sodium Hypochlorite Solution for (n,γ)99Mo/99mTc Generator Based on Zirconium-Based Material (ZBM)
title_sort use of sodium hypochlorite solution for n γ 99mo 99mtc generator based on zirconium based material zbm
topic 99Mo/99mTc generator
Zirconium material
Adsorption capacity
Sodium hypochlorite
Yield of 99mTc
url http://aij.batan.go.id/index.php/aij/article/view/384
work_keys_str_mv AT isaptiama theuseofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT marlina theuseofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT esarmini theuseofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT herlina theuseofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT sriyono theuseofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT abidin theuseofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT hsetiawan theuseofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT kadarisman theuseofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT hlubis theuseofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT amutalib theuseofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT isaptiama useofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT marlina useofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT esarmini useofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT herlina useofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT sriyono useofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT abidin useofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT hsetiawan useofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT kadarisman useofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT hlubis useofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm
AT amutalib useofsodiumhypochloritesolutionforng99mo99mtcgeneratorbasedonzirconiumbasedmaterialzbm

Similar Items